通过基于 SPSF 的神经解码和相互连接的关联记忆矩阵，规避实数和虚数神经网络的破坏

Defense + Commercial Sensing Pub Date : 2024-06-06 DOI:10.1117/12.3014016

James P. LaRue

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摘要

在之前的工作中，我们介绍了我们（提议的）将 "真实 "和 "虚构 "神经网络连接起来的架构。实 "的部分是通过已获专利的单周期单频率（SPSF）方法利用脑电图中的纹状体搏动频率来表示的，而 "虚 "的部分是通过转换为双向关联记忆矩阵的卷积神经网络来表示的。我们已经证明，我们可以将两个破碎的 CNN 的中间层相互连接（即桥接）起来，这两个 CNN 都是为物体检测而训练的，但仍然可以做出很好的预测。在这项工作中，我们将使用双感官 CNN 实现语音和物体检测，并将神经解码纳入脑电图 SPSF 方法，以模拟如何在人机界面情况下规避破损的神经网络。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Circumventing broken neural networks, both real and imaginary, through SPSF-based neural decoding and interconnected associative memory matrices

In previous work we have introduced our (proposed) architecture that connects a ‘Real’ and ‘Imaginary’ Neural Network. The ‘Real’ portion is represented by exploiting Striatal Beat Frequencies in an EEG with the patented Single-Period Single-Frequency (SPSF) method and the ‘Imaginary’ is represented by a convolutional neural network transformed into bi-directional associative memory matrices. We demonstrated that we could interconnect, i.e., bridge, the intermediate layers of two broken CNNs both of which were trained for object detection and still make a good prediction. In this work we will use a dual sensory CNN implementation of speech and object detection and we will incorporate Neural Decoding into the EEG SPSF method to emulate how to circumvent the broken neural networks in a human-computer interface situation.

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Defense + Commercial Sensing

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